Magnetic connection quick release fool-proof structure and multi-functional wearable clothing

Abstract

The utility model discloses a kind of magnetic attraction connection quick-release fool-proof structure and multifunctional wearing clothes, belong to clothing technical field. Quick-release base is equipped with multiple first conductive structures, multiple first conductive structures are arranged in a row along the midline of quick-release base interval, and the opposite sides of multiple first conductive structures are respectively equipped with first magnetic attraction piece and second magnetic attraction piece;Quick-release socket is equipped with multiple second conductive structures, multiple second conductive structures are arranged in a row along the midline of quick-release socket interval, and the opposite sides of multiple second conductive structures are respectively equipped with third magnetic attraction piece and fourth magnetic attraction piece, corresponding magnetic attraction piece can be mutually magnetic attraction, so that multiple first conductive structures can and multiple second conductive structures mutually abut according to order. The utility model not only can realize the quick disassembly of control component and clothes, but also can ensure that control component is installed according to correct position, avoid function failure caused by installation error.

Description

Technical Field

[0001] This utility model relates to the field of clothing technology, and in particular to a magnetic connection quick-release foolproof structure and multifunctional wearable clothing. Background Technology

[0002] Against the backdrop of rapid technological advancements and people's ever-increasing pursuit of quality of life, the intimate apparel industry is continuously incorporating innovative technological elements to meet diverse needs for comfort, health, and convenience. For example, electronic functional modules such as electrical pulses, ventilation, heating, and massage are increasingly being integrated into intimate apparel items like bras and leggings. The addition of these modules not only enhances the practicality of intimate apparel but also endows it with multiple functions such as massage and relaxation, improved wearing comfort, protection against cold, and relief of physical fatigue.

[0003] However, with the increase in integrated functions, the shortcomings of existing quick-release structures have gradually become apparent. In existing technologies, to facilitate the removal of control components, power components, and other parts of electronic functional modules from wearable devices when not in use, a magnetic quick-release design is typically used. This design can meet basic needs when functions are limited, but as functions increase, the installation of control components becomes more complex, and the simple magnetic structure can no longer meet the requirements for precise installation.

[0004] Taking the bra with a ventilation and heat dissipation structure (patent publication number CN222764815U) as an example, although the patent discloses quick assembly and disassembly of control components via magnetic attraction, existing quick-release structures lack effective positioning and guiding mechanisms when dealing with multifunctional wearable garments. This can easily lead to users making incorrect orientations when installing control components. Incorrect installation can not only cause electronic functional modules to malfunction, but may also adversely affect the performance and lifespan of the entire wearable device, causing inconvenience to users and limiting the further development and application of multifunctional intimate apparel. Utility Model Content

[0005] The purpose of this invention is to provide a magnetic quick-release and foolproof structure for connecting and disassembling, as well as multifunctional wearable clothing. This structure not only enables quick assembly and disassembly of control components and clothing, but also ensures that the control components are installed in the correct position, thus avoiding functional failure due to incorrect installation.

[0006] In a first aspect, this utility model provides a magnetic connection quick-release foolproof structure, comprising:

[0007] The quick-release base is provided with multiple first conductive structures. The multiple first conductive structures are arranged in a row at intervals along the center line of the quick-release base. A first magnetic accumulator and a second magnetic accumulator are respectively provided on opposite sides of the multiple first conductive structures. The magnetic properties of the first magnetic accumulator and the second magnetic accumulator are opposite.

[0008] The quick-release socket has multiple second conductive structures arranged in a row at intervals along the center line of the quick-release socket. A third magnetic element and a fourth magnetic element are respectively provided on opposite sides of each second conductive structure. The third and fourth magnetic elements have opposite magnetic properties, and the third magnetic element can magnetically attract the first magnetic element, while the fourth magnetic element can magnetically attract the second magnetic elements, so that the multiple first conductive structures can sequentially abut against the multiple second conductive structures.

[0009] This utility model provides a magnetic quick-release anti-foolproof structure. By respectively arranging a first, second, third, and fourth magnetic element on the quick-release base and quick-release socket, and ensuring that these magnetic elements on the same component have opposite magnetic properties, precise positioning can be achieved. When the quick-release socket approaches the quick-release base, the magnetic elements attract each other, guiding the quick-release socket to accurately align with the quick-release base, thereby ensuring that the first and second conductive structures can sequentially contact each other. This magnetic attraction-guided operation structure is foolproof, as each corresponding first and second conductive structure corresponds to a different contact function, avoiding the problem of functional modules malfunctioning due to incorrect installation.

[0010] Furthermore, both the first and second magnetic components protrude from the quick-release base, and both the third and fourth magnetic components protrude from the quick-release socket.

[0011] By adopting the above technical solution, the protruding magnetic components allow the magnetic components to be closer together, thereby enhancing the magnetic attraction. When the quick-release socket and quick-release base are close together, the protruding magnetic components can interact more directly, generating a stronger magnetic attraction and further improving the connection stability between the quick-release base and the quick-release socket.

[0012] Furthermore, the first conductive structure is a conductive contact piece, and the second conductive structure is a conductive contact pin.

[0013] Using the above technical solution, due to the protruding magnetic component, the quick-release base and quick-release socket will be suspended in the air during magnetic connection. In this situation, the combination of conductive contact pieces and conductive contact pins can adapt well to the suspended environment and achieve a stable electrical connection. The conductive contact pins can accurately contact the conductive contact pieces in the suspended state, maintaining good electrical conductivity even without additional support.

[0014] Furthermore, the end of the conductive contact pin furthest from the quick-release base is hemispherical.

[0015] By employing the above technical solution, the hemispherical conductive contact pin tip can provide a more uniform contact pressure distribution when in contact with the conductive contact sheet. This shape design allows the contact pin tip to adapt more naturally to the surface of the contact sheet when in contact, reducing poor contact problems caused by uneven contact points.

[0016] Furthermore, the number of the first magnetic attractor, the second magnetic attractor, the third magnetic attractor, and the fourth magnetic attractor is at least two.

[0017] By employing the above technical solution and incorporating at least two magnetic components, the magnetic attraction between the quick-release base and the quick-release socket can be enhanced. The synergistic effect of multiple magnetic components makes the connection between the two more robust, better resistant to external interference, and thus improves the stability of the entire structure.

[0018] Furthermore, the quick-release base is also provided with a receiving slot, in which the first conductive structure, the first magnetic suction member and the second magnetic suction member are all provided. The quick-release socket is also provided with a mounting boss, in which the second conductive structure, the third magnetic suction member and the fourth magnetic suction member are all provided. The mounting boss can be inserted into the receiving slot for locking and fixing.

[0019] The aforementioned technical solution, with its locking and fixing design of the receiving slot and mounting boss, effectively prevents displacement between the quick-release socket and the quick-release base. In actual use, even under external force or vibration during equipment movement, the tight fit between the mounting boss and the receiving slot ensures a relatively fixed position. This design avoids the loosening of the first and second conductive structures due to displacement, thus ensuring the stability of the electrical connection. A stable electrical connection is crucial for the normal operation of electronic functional modules, effectively reducing the risk of signal transmission interruption or functional failure due to poor contact.

[0020] Furthermore, both the receiving slot and the mounting boss are rectangular in shape.

[0021] Furthermore, the four corners of the receiving slot and the mounting boss are all rounded.

[0022] Furthermore, both the receiving slot and the mounting boss are circular in shape.

[0023] Secondly, the present invention provides a multifunctional wearable garment, including any of the magnetic fastening quick-release and foolproof structures described above.

[0024] As can be seen from the above, the magnetic quick-release anti-foolproof structure provided by this utility model achieves precise positioning by respectively setting a first magnetic component, a second magnetic component, a third magnetic component, and a fourth magnetic component on the quick-release base and the quick-release socket, and setting these magnetic components with opposite magnetic properties on the same component. When the quick-release socket is close to the quick-release base, the magnetic components will attract each other, guiding the quick-release socket to accurately align with the quick-release base, thereby ensuring that the first conductive structure and the second conductive structure can abut against each other in sequence. This magnetic attraction and guidance method of operation structure is foolproof, and each corresponding first conductive structure and second conductive structure corresponds to a different contact function, avoiding the problem of functional modules not working properly due to incorrect installation.

[0025] Other features and advantages of this application will be set forth in the following description and will be apparent in part from the description or may be learned by practicing embodiments of this application. The objectives and other advantages of this application may be realized and obtained by means of the structures particularly pointed out in the written description and the accompanying drawings. Attached Figure Description

[0026] Figure 1 This is a cross-sectional schematic diagram of a magnetic connection quick-release and foolproof structure proposed in this utility model.

[0027] Figure 2 for Figure 1 A schematic diagram of the quick-release base.

[0028] Figure 3 for Figure 1 A structural diagram of a quick-release socket.

[0029] In the attached diagram: 100, quick-release base; 110, first conductive structure; 120, first magnetic clasp; 130, second magnetic clasp; 140, receiving slot; 200, quick-release socket; 210, second conductive structure; 220, third magnetic clasp; 230, fourth magnetic clasp; 240, mounting boss. Detailed Implementation

[0030] The embodiments of this utility model are described in detail below. Examples of these embodiments are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and are only used to explain this utility model, and should not be construed as limiting this utility model.

[0031] The following disclosure provides many different embodiments or examples for implementing various structures of the present invention. To simplify the disclosure, specific examples of components and arrangements are described below. Of course, these are merely examples and are not intended to limit the scope of the invention. Furthermore, reference numerals and / or letters may be repeated in different examples; such repetition is for simplification and clarity and does not in itself indicate a relationship between the various embodiments and / or arrangements discussed.

[0032] The magnetic quick-release and foolproof structure disclosed in this utility model is mainly used in multifunctional wearable clothing. It can not only realize the quick assembly and disassembly of control components and clothing, but also ensure that the control components are installed in the correct position to avoid functional failure due to incorrect installation.

[0033] Reference Appendix Figure 1 Appendix Figure 2 Appendix Figure 3 In one embodiment, the magnetic quick-release foolproof structure includes a quick-release base 100 and a quick-release socket 200. The quick-release base 100 is provided with a plurality of first conductive structures 110, which are arranged in a row at intervals along the center line of the quick-release base 100. A first magnetic 120 and a second magnetic 130 are respectively provided on opposite sides of the plurality of first conductive structures 110. The magnetic properties of the first magnetic 120 and the second magnetic 130 are opposite. The quick-release socket 200 is provided with a plurality of second conductive structures 210, which are arranged in a row at intervals along the center line of the quick-release socket 200. A third magnetic 220 and a fourth magnetic 230 are respectively provided on opposite sides of the plurality of second conductive structures 210. The magnetic properties of the third magnetic 220 and the fourth magnetic 230 are opposite. The third magnetic 220 can be magnetically attracted to the first magnetic 120, and the fourth magnetic 230 can be magnetically attracted to the second magnetic 130, so that the plurality of first conductive structures 110 and the plurality of second conductive structures 210 can abut against each other in sequence.

[0034] Specifically, the magnetic core pole of the first magnetic attractor 120 can be designed as the S pole, the magnetic core pole of the second magnetic attractor 130 can be designed as the N pole, the magnetic core pole of the third magnetic attractor 220 can be designed as the N pole, and the magnetic core pole of the fourth magnetic attractor 230 can be designed as the S pole.

[0035] As can be seen from the above, the magnetic quick-release anti-foolproof structure provided by this utility model achieves precise positioning by respectively setting a first magnetic element 120, a second magnetic element 130, a third magnetic element 220, and a fourth magnetic element 230 on the quick-release base 100 and the quick-release socket 200, and setting these magnetic elements with opposite magnetic properties on the same component. When the quick-release socket 200 approaches the quick-release base 100, the magnetic elements attract each other, guiding the quick-release socket 200 to accurately align with the quick-release base 100, thereby ensuring that the first conductive structure 110 and the second conductive structure 210 can abut against each other in sequence. This magnetic attraction and guidance method prevents the structure from malfunctioning. Each corresponding first conductive structure 110 and second conductive structure 210 corresponds to a different contact function, avoiding the problem of functional modules failing to work properly due to incorrect installation.

[0036] In one embodiment, the first magnetic member 120 and the second magnetic member 130 both protrude from the quick-release base 100, and the third magnetic member 220 and the fourth magnetic member 230 both protrude from the quick-release socket 200.

[0037] By adopting the above technical solution, the protruding magnetic components allow the magnetic components to be closer together, thereby enhancing the magnetic attraction. When the quick-release socket 200 and the quick-release base 100 are close together, the protruding magnetic components can interact more directly, generating a stronger magnetic attraction, further improving the connection stability between the quick-release base 100 and the quick-release socket 200.

[0038] In one embodiment, the first conductive structure 110 is a conductive contact piece, and the second conductive structure 210 is a conductive contact pin.

[0039] Using the above technical solution, due to the protruding magnetic component, the quick-release base 100 and quick-release socket 200 will be in a suspended state when magnetically connected. In this situation, the combination of conductive contact pieces and conductive contact pins can well adapt to the suspended environment and achieve a stable electrical connection. The conductive contact pins can accurately contact the conductive contact pieces in the suspended state, maintaining good electrical conductivity even without additional support.

[0040] In one embodiment, the end of the conductive contact pin away from the quick-release base 100 is arranged in a hemispherical shape.

[0041] By employing the above technical solution, the hemispherical conductive contact pin tip can provide a more uniform contact pressure distribution when in contact with the conductive contact sheet. This shape design allows the contact pin tip to adapt more naturally to the surface of the contact sheet when in contact, reducing poor contact problems caused by uneven contact points.

[0042] In one embodiment, the number of the first magnetic member 120, the second magnetic member 130, the third magnetic member 220 and the fourth magnetic member 230 are all at least two.

[0043] By employing the above technical solution and incorporating at least two magnetic components, the magnetic attraction between the quick-release base 100 and the quick-release socket 200 can be enhanced. The synergistic effect of multiple magnetic components makes the connection between the two more robust, better resistant to external interference, and thus improves the stability of the entire structure.

[0044] In one embodiment, the quick-release base 100 is further provided with a receiving slot 140, and the first conductive structure 110, the first magnetic member 120 and the second magnetic member 130 are all provided in the receiving slot 140. The quick-release socket 200 is further provided with a mounting boss 240, and the second conductive structure 210, the third magnetic member 220 and the fourth magnetic member 230 are all provided on the mounting boss 240. The mounting boss 240 can be inserted into the receiving slot 140 for locking and fixing.

[0045] By employing the above technical solution, the engaging and fixing design of the receiving slot 140 and the mounting boss 240 effectively prevents displacement between the quick-release socket 200 and the quick-release base 100. In actual use, even under external force or vibration during equipment movement, the tight fit between the mounting boss 240 and the receiving slot 140 ensures that they maintain a relatively fixed position. This design avoids the loosening of the first conductive structure 110 and the second conductive structure 210 due to displacement, thus ensuring the stability of the electrical connection. A stable electrical connection is crucial for the normal operation of electronic functional modules, effectively reducing the risk of signal transmission interruption or functional failure due to poor contact.

[0046] In one embodiment, both the receiving slot 140 and the mounting boss 240 are rectangular.

[0047] In one embodiment, the four corners of the receiving slot 140 and the mounting boss 240 are rounded.

[0048] In one embodiment, both the receiving slot 140 and the mounting boss 240 are circular.

[0049] This utility model also provides a multifunctional wearable garment, including the magnetic connection quick-release and foolproof structure of any of the above embodiments.

[0050] In the description of this specification, the references to terms such as "one embodiment," "some embodiments," "illustrative embodiment," "example," "specific example," or "some examples," etc., indicate that a specific feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of this utility model. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.

[0051] The above descriptions are merely some embodiments of this utility model. For those skilled in the art, various modifications and improvements can be made without departing from the inventive concept of this utility model, and all such modifications and improvements fall within the protection scope of this utility model.

Claims

1. A magnetic connection quick-release foolproof structure, characterized in that, include: The quick-release base (100) is provided with a plurality of first conductive structures (110). The plurality of first conductive structures (110) are arranged in a row at intervals along the center line of the quick-release base (100). A first magnetic absorbing element (120) and a second magnetic absorbing element (130) are respectively provided on opposite sides of the plurality of first conductive structures (110). The magnetic properties of the first magnetic absorbing element (120) and the second magnetic absorbing element (130) are opposite. The quick-release socket (200) is provided with a plurality of second conductive structures (210). The plurality of second conductive structures (210) are arranged in a row at intervals along the center line of the quick-release socket (200). A third magnetic member (220) and a fourth magnetic member (230) are respectively provided on opposite sides of the plurality of second conductive structures (210). The magnetic properties of the third magnetic member (220) and the fourth magnetic member (230) are opposite. The third magnetic member (220) can be magnetically attracted to the first magnetic member (120), and the fourth magnetic member (230) can be magnetically attracted to the second magnetic member (130), so that the plurality of first conductive structures (110) can abut against the plurality of second conductive structures (210) in sequence.

2. The magnetic connection quick-release foolproof structure according to claim 1, characterized in that, The first magnetic member (120) and the second magnetic member (130) both protrude from the quick-release base (100), and the third magnetic member (220) and the fourth magnetic member (230) both protrude from the quick-release socket (200).

3. The magnetic connection quick-release foolproof structure according to claim 2, characterized in that, The first conductive structure (110) is a conductive contact piece, and the second conductive structure (210) is a conductive contact pin.

4. The magnetic connection quick-release foolproof structure according to claim 3, characterized in that, The conductive contact pin is hemispherically shaped at the end furthest from the quick-release base (100).

5. The magnetic connection quick-release foolproof structure according to claim 1, characterized in that, The number of the first magnetic attractor (120), the second magnetic attractor (130), the third magnetic attractor (220), and the fourth magnetic attractor (230) is at least two.

6. The magnetic connection quick-release foolproof structure according to claim 1, characterized in that, The quick-release base (100) is also provided with a receiving slot (140). The first conductive structure (110), the first magnetic suction member (120) and the second magnetic suction member (130) are all provided in the receiving slot (140). The quick-release socket (200) is also provided with a mounting boss (240). The second conductive structure (210), the third magnetic suction member (220) and the fourth magnetic suction member (230) are all provided on the mounting boss (240). The mounting boss (240) can be inserted into the receiving slot (140) for locking and fixing.

7. The magnetic connection quick-release foolproof structure according to claim 6, characterized in that, Both the receiving slot (140) and the mounting boss (240) are rectangular.

8. The magnetic connection quick-release foolproof structure according to claim 7, characterized in that, The four corners of the receiving slot (140) and the mounting boss (240) are all rounded.

9. The magnetic connection quick-release foolproof structure according to claim 6, characterized in that, Both the receiving slot (140) and the mounting boss (240) are circular.

10. A multifunctional wearable garment, characterized in that, Includes the magnetic quick-release and foolproof structure according to any one of claims 1-9.

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